Our tracking and sensing electronics and reliable firmware helped Airway's Bronchoscope Simulator achieve First Place Scientific Award at the International Anesthesia Research Society (IARS) in May 2011.

The electronics are controlled by life-like hand controls and levers, giving trainee doctors a way to improve their skills.

The insertion end of the device is a “fake lung” which feeds into a 3D simulation of the light-pipe and camera motion.

Our tracking and sensing electronics and reliable firmware helped Airway's Bronchoscope Simulator achieve First Place Scientific Award at the International Anesthesia Research Society (IARS) in May 2011.

The electronics are controlled by life-like hand controls and levers, giving trainee doctors a way to improve their skills.

The insertion end of the device is a “fake lung” which feeds into a 3D simulation of the light-pipe and camera motion.

Our tracking and sensing electronics and reliable firmware helped Airway's Bronchoscope Simulator achieve First Place Scientific Award at the International Anesthesia Research Society (IARS) in May 2011.

The electronics are controlled by life-like hand controls and levers, giving trainee doctors a way to improve their skills.

The insertion end of the device is a “fake lung” which feeds into a 3D simulation of the light-pipe and camera motion.

Our tracking and sensing electronics and reliable firmware helped Airway's Bronchoscope Simulator achieve First Place Scientific Award at the International Anesthesia Research Society (IARS) in May 2011.

The electronics are controlled by life-like hand controls and levers, giving trainee doctors a way to improve their skills.

The insertion end of the device is a “fake lung” which feeds into a 3D simulation of the light-pipe and camera motion.

Our tracking and sensing electronics and reliable firmware helped Airway's Bronchoscope Simulator achieve First Place Scientific Award at the International Anesthesia Research Society (IARS) in May 2011.

The electronics are controlled by life-like hand controls and levers, giving trainee doctors a way to improve their skills.

The insertion end of the device is a “fake lung” which feeds into a 3D simulation of the light-pipe and camera motion.